Physical and chemical equilibrium can respond to a change in their pressure, temperature, and concentration of reactants and products. To describe the change in the equilibrium we have a principle named Le Chatelier principle. According to this principle, even if we make some changes in equilibrium, then also the system even re-establishes the equilibrium by undoing the effect.
In the reaction `N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g)`. If we increase the pressure of the system, the equilibrium is

Physical and chemical equilibrium can respond to a change in their pressure, temperature, and concentration of reactants and products. To describe the change in the equilibrium we have a principle named Le Chatelier principle. According to this principle, even if we make some changes in equilibrium, then also the system even re-establishes the equilibrium by undoing the effect. Consider the following equilibrium: 2NO_(2) hArr 2NO_(3), DeltaH=-ve , If O_(2) is added and volume of the reaction vessel is reduced, the equilibrium

Physical and chemical equilibrium can respond to a change in their pressure, temperature, and concentration of reactants and products. To describe the change in the equilibrium we have a principle named Le Chatelier principle. According to this principle, even if we make some changes in equilibrium, then also the system even re-establishes the equilibrium by undoing the effect. If we add SO_(4)^(2-) ion to a saturated solution of Ag_(2)SO_(4) , it will result in a//an

Physical and chemical equilibria can respond to a change in their pressure, temperature, and concentration of reactants and products. To describe the change in the equilibrium, we have a principle named Le Chatelier's principle. This we can define in terms of enegry, as the free energy change in equilibrium is zero means the system is stable. So if we are doing some changes in equilibrium, then the system having a tendency to reoestablish the equilibrium by undoing the effect we broughy. Consider the following equilibrium. Three sparingly soluble salts A_(2)B, AB , and AB_(3) are given. If all the three having the same value of solobility products (K_(sp)) , in the saturated solution, the correct order of their solubilites is

Increased pressure shifts the equilibrium of the reaction: N_(2)(g)+3H_(2)(g)harr2NH_(3)(g) so as to

The equilibrium of the reaction N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g) will be shifted to the right when:

Chemical Equilibrium - Le Chatelier'S Principle

The equilibrium constant K_(p) for the reaction H_(2)(g)+I_(2)(g) hArr 2HI(g) changes if:

Chemical Equilibrium - Le Chatelier'S Principle 2

Chemical Equilibrium - Le Chatelier'S Principle 3